The effect of technological factors on China's carbon intensity: New evidence from a panel threshold model

The effect of technological factors on China's carbon intensity: New evidence from a panel...
Huang, Junbing; Liu, Qiang; Cai, Xiaochen; Hao, Yu; Lei, Hongyan
2018-04-01 00:00:00
Despite the wealth of literature, there is no consensus regarding the effects of the technological factors, including indigenous research and development investment (R&D), foreign direct investment (FDI) and trade, on carbon intensity in China. In this study, using panel data consisting of 30 Chinese provincial-level regions between 2000 and 2014, an extension of the CH-LP framework is first employed to control for the disparity between different proxy variables for FDI and trade in the previous literature. The effects of both indigenous R&D and technology spillovers in the formation of FDI and trade on carbon intensity are investigated in depth by utilizing both linear and nonlinear analyses. The linear empirical results indicate that both indigenous R&D and import's technology spillover play a significant role in decreasing China's carbon intensity. The technology spillovers originating from FDI and export are also beneficial to the reduction of China's carbon intensity. Further estimation results based on the nonlinear analysis indicate that the local technology absorption capacity affecting factors such as human capital, indigenous R&D and the full-time equivalent of R&D personnel are crucial for determining the level of carbon intensity.
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The effect of technological factors on China's carbon intensity: New evidence from a panel threshold model

Abstract

Despite the wealth of literature, there is no consensus regarding the effects of the technological factors, including indigenous research and development investment (R&D), foreign direct investment (FDI) and trade, on carbon intensity in China. In this study, using panel data consisting of 30 Chinese provincial-level regions between 2000 and 2014, an extension of the CH-LP framework is first employed to control for the disparity between different proxy variables for FDI and trade in the previous literature. The effects of both indigenous R&D and technology spillovers in the formation of FDI and trade on carbon intensity are investigated in depth by utilizing both linear and nonlinear analyses. The linear empirical results indicate that both indigenous R&D and import's technology spillover play a significant role in decreasing China's carbon intensity. The technology spillovers originating from FDI and export are also beneficial to the reduction of China's carbon intensity. Further estimation results based on the nonlinear analysis indicate that the local technology absorption capacity affecting factors such as human capital, indigenous R&D and the full-time equivalent of R&D personnel are crucial for determining the level of carbon intensity.

Journal

Energy Policy
– Elsevier

Published: Apr 1, 2018

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References

CO2 emissions, research and technology transfer in China

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The effect of urbanization, energy consumption, and foreign direct investment on the carbon dioxide emission in the SSEA (South and Southeast Asian) region